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A primer on electro-static discharge, How static charges are created – Teledyne GFC-7000T - Trace CO2 Analyzer - manual User Manual

Page 273

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ESD

Model GFC7000TA Carbon Dioxide Analyzer

Teledyne Analytical Instruments

255

11. A PRIMER ON ELECTRO-STATIC DISCHARGE

Teledyne Instruments considers the prevention of damage caused by the discharge of static electricity to
be extremely important part of making sure that your analyzer continues to provide reliable service for a
long time. This section describes how static electricity occurs, why it is so dangerous to electronic
components and assemblies as well as how to prevent that damage from occurring.

11.1. How Static Charges are Created

Modern electronic devices such as the types used in the various electronic assemblies of your analyzer,
are very small, require very little power and operate very quickly. Unfortunately, the same characteristics
that allow them to do these things also make them very susceptible to damage from the discharge of
static electricity. Controlling electrostatic discharge begins with understanding how electro-static charges
occur in the first place.

Static electricity is the result of something called triboelectric charging which happens whenever the
atoms of the surface layers of two materials rub against each other. As the atoms of the two surfaces
move together and separate, some electrons from one surface are retained by the other.

+

+

Materials

Makes

Contact

P

ROTONS

=

3

E

LECTRONS

=

3

N

ET

C

HARGE

=

0

P

ROTONS

=

3

E

LECTRONS

=

3

N

ET

C

HARGE

=

0

Materials

Separate

+

P

ROTONS

=

3

E

LECTRONS

=

2

N

ET

C

HARGE

=

-1

+

P

ROTONS

=

3

E

LECTRONS

=

4

N

ET

C

HARGE

=

+1

Figure 11-1:

Triboelectric Charging

If one of the surfaces is a poor conductor or even a good conductor that is not grounded, the resulting
positive or negative charge cannot bleed off and becomes trapped in place, or static. The most common
example of triboelectric charging happens when someone wearing leather or rubber soled shoes walks
across a nylon carpet or linoleum tiled floor. With each step, electrons change places and the resulting
electro-static charge builds up, quickly reaching significant levels. Pushing an epoxy printed circuit board
across a workbench, using a plastic handled screwdriver or even the constant jostling of Styrofoam

TM

pellets during shipment can also build hefty static charges

Table 11-1: Static Generation Voltages for Typical Activities

MEANS OF GENERATION

65-90% RH

10-25% RH

Walking across nylon carpet

1,500V

35,000V

Walking across vinyl tile

250V

12,000V

Worker at bench

100V

6,000V